US1775393A - Tool for milling eye sockets in doll heads - Google Patents
Tool for milling eye sockets in doll heads Download PDFInfo
- Publication number
- US1775393A US1775393A US32301A US3230125A US1775393A US 1775393 A US1775393 A US 1775393A US 32301 A US32301 A US 32301A US 3230125 A US3230125 A US 3230125A US 1775393 A US1775393 A US 1775393A
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- United States
- Prior art keywords
- eye
- tool
- wall
- milling
- shaft
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H3/00—Dolls
- A63H3/36—Details; Accessories
- A63H3/38—Dolls' eyes
- A63H3/42—Manufacture of eyes
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63H—TOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
- A63H9/00—Special methods or compositions for the manufacture of dolls, toy animals, toy figures, or parts thereof
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T409/00—Gear cutting, milling, or planing
- Y10T409/30—Milling
- Y10T409/30784—Milling including means to adustably position cutter
- Y10T409/3084—Milling including means to adustably position cutter with position indicator or limit means
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T409/00—Gear cutting, milling, or planing
- Y10T409/30—Milling
- Y10T409/30784—Milling including means to adustably position cutter
- Y10T409/308568—Plural cutters
Definitions
- This invention relates to an improved tool for millingV eyesockets in doll heads, and has for its primary object to provide a relatively simple tool whereby this operation maybe expeditiously and accurately performed.
- l provide a tool wherein spacedmilling cutters are mounted and arranged for insertion through the neck of the completed doll head into centered relation with the respective Veye openings, and said cutters then simultaneously operated to mill out or cut the wall of the dollhead contiguous to the edges ofthe openings to precisely the same extent, thus insuring uniformity in ⁇ curvature of the walls of the two eye receiving sockets and thereby making it possible to locate orposition the two eye members in precisely the same relation to the socket walls.
- VVith'vthe above ⁇ and other objects in view the invention consists in the improved tool for milling eye sockets in dollheads, and in the form, construction and relative arrangement of the several parts thereof as will be hereinafter more fully described, illustrated" in the accompanying drawings, and subse ⁇ quently incorporatedin thesubjoined claims.
- Figure ⁇ 1 is a front elevation partly-in sec* tion showing av preferred embodiment ofmy present improvements
- ⁇ F'g. 2 is a sideV elevation of the tool
- Fig. 3 isa detail sectional view taken on the '75 line 3 3 of Fig. 2, and Y Fig. 4 is horizontal section taken on the line 1-11 of Fig. 1.' i
- a disc or plate 7 is rotatably supported upon a stud 8, threaded or otherwise fixed in said standard.
- the face of the standard is recessed as at'9 to receive a boss 10 onone 90 j side of the plate 7.
- a suitable laterally pr0- jecting handle 11 is attached to or integrally formed with the, plate 7.
- the rotatably mounted plate 7 is also provided at the upper side thereof with a horizontally'V disposed forwardly projecting arm 12. i ln this arm a vertically positioned shaft 18 is j'ournalled at its lower end, and said lower end of the shaft 13 is connected by a flexible or universal joint 14 withthe upper 10 end of a relatively short shaft 15 which is mounted in a bracket 16 projecting from the face of the standard 5. ltwill be noted that the point of intersection of the axes of the universal oint 14 is located coincident with the axial center of the supporting stud 8 for the plate 7. lt will thus be understood that when the plate 7 is rotated as hereinafter explained, the shaft 13 moves therewith and with relationL to the lower shaft 15.
- a similar arm 17 projects forwardly from the standard and in this arm a second shaft 18 is rotatably held, said shaft being mounted at its lower end in the bearing bracket 16.
- This lower end of the shaft 18 is operatively7 connected with the shaft by means of the spiral gears 19.
- the gear on the shaft 18 is engaged with a similar gear 20 on one end of shaft 21 mounted in the standard 5, the other end of this shaft being connected by any suitable means with a motor or other source of power.
- a diametrically extending U-shaped bracket member 22 is fixed at its ends, said bracket embracing the exible or universal joint 14 and the shaft 18.
- This bracket is provided with a bifurcated lug 23 in which the lower end of a lever 24 is pivotally mounted.
- the end of the arm 12 is also bifnrcated .at to receive said lever and the upper end of the lever is curved and has a plate 26 fixed thereto terminating in a laterally projecting linger 27 carrying a small gauge disc 28.
- a similar lever 29 is also pivotally mounted at its lower end in the arm 17 on the standard 5 and is likewise provided with a gauge device corresponding to that above referred to.
- Each of these levers is yieldingly held against pivotal movement in one direction by means of a leaf spring ⁇ 30 bearing against the lower end of the lever at its free end and having its other end fixed to the arm 12 or 17 as the case may be.
- Each lever carries an adjusting screw 31, 32 respectively, bearing against the arms 12 and 17 whereby the levers 24 and 29 may be independently adjusted with relation to a transversely positioned stop pin 33 fixed in each of the arms 12 and 17 which limits the inward movement of the lever.
- each of these cutters may be provided with a threaded stem 35 for engagement in a threaded socket in the upper end of each shaft.
- a horizontally split lug 36 on the upper end of the standard 5 is provided with a threaded opening to receive the adjustable screw 37 having a reduced. end A38 bearing against one side of the arm 12 on the plate 7.
- a vertically positioned clamping screw 39 connects the ends of the split lug 3G whereby the same may be tightly clamped upon the screw 37, and the latter thus fixed in its adjusted position.
- the standard 5 is formed with a vertically disposed guide 40 for a plunger 41.
- this guide means is illustrated in the form of a hollow projection on. the face of the standard in the upper end of which the plunger 41 is movably arranged and yieldingly projected therefrom by the coil spring 42, the lower end of which is engaged with an adjustable plug 43 threaded in the base 5.
- the upper end of the plunger 41 is rounded or convex and bears against the lower edge of the handle lever 11 projecting from the plate 7. It will therefore, be understood that the spring 42 and plunger 41 act to rotate the plate 7 in one direction and yieldingly hold the arm 12 thereof in'bearing ⁇ engagement against the end 38 of the adjustable stop screw 37.
- this adjustable stop on the standard with respect to a vertical plane passing through the axis of the plate 7. thus determines the distance between the axial centers of the milling cutters 34 on the upper ends of the shafts 13 and 18. T.Vhen it is desired to change this spacing of the milling cutters, the clamping screw 39 is released and the stop 37 adjusted in the lug 36, thus moving the shaft 13 and the milling cutter thereon with respect to the relatively stationary shaft 18 and the milling cutter on the upper end thereof.
- I provide degree scale upon the face of the standard 5 as shown at 44 and an index pointer or projection 45 on the edge of the rotatable plate 7.
- the screws 31 are operated to adjust the gauge discs 28 with relation to the respective milling critters and in accordance with the thickness of the doll head wall.
- the completely formed doll head indicated at H is then arranged in position, the two shafts 13 and 18 passing upwardly through the neck of the doll head.
- the operator then adjusts the position of the doll head with the inner surface of its front wall in contact with the spherical milling cutters nntil the gauge discs 28 are accurately centered i t 1o with relation to the respective eye openings in said wall.
- a bracket 46 projects laterally from the upper end .of the standard at the rear side thereof and is provided with a vertically extending opening 47, the wall ⁇ of which has a left hand thread to receive the exterior left hand threads of an adjustable bushing 48.
- This bushing also has an internalright hand thread indicated at 49 to receive the lower correspondingly threaded portion vof a vertically disposed rod or post-50.
- This threaded section ofthe post is provided with a longitudinally extending key way 51 to receive a pin or key 52 fixedV in the bracket arm 46 and projecting into the upper end of the opening 47.
- a-lock nut 53 is threaded on the ⁇ post 50.
- i Y Y Y The upper end of the post is slotted or bifurcated as at 54anda stop rod or rest 55 is iiivotally mounted therein upon, the pin 56.”
- the post 50 is provided with obliquely inclined surfaces 57 and ⁇ 58 respectively.
- the surface 57 supports the lstop 55 in its operative position while the surface 58 ⁇ limits the pivotal movement of said stop to an inoperative posi-
- the stop may be readily adjusted with respect to the gauge discs 28 by turning the bushing 48 whereby the post 50 is caused to move vertically therethrough.
- the post is then securely locked in such adjusted position by means of the nut 553 which is threaded downwardly upon the post into engagement ⁇ with the ⁇ bracket 46.
- the neck wall of the doll head H n at its rear side is adapted to'bear against ⁇ the end of the stop 55, said stop being properlyV adjusted afterfthe adjustment, of the gauge device 27 to ⁇ accurately center'the same with relation to the eye opening in the head wall and with respect to the 'milling cutter' transmitted through the gearing 19 and 20 to the shafts 13 and 18, the milling cutters operating upon the inner side of thehead wall to form the concave seats or sockets therein as indicated at S which ⁇ receive the respective eye. members of the oscillatorymounting to be subsequently ⁇ positioned within said head.
- the eye openingsin the doll head wall may be accurately located ⁇ radially with respect to the' milling cutters so that an even and uniform cutting actionuponthe wall of the doll head is 'assured and the socket walls thus produced will bear the same relation to the edge o-f each eyeA opening at the outer surface of the head wall.
- a tool-of the character described comprising a pair of shafts adapted to be engaged through the neck of a completely formed doll head, a milling cutter on each shaft, means for adjusting one of said shafts with respect to the other to space the milling cutters in accordance with the distance between the centers of spaced eye openings in the doll head wall, an adjustable lever associated with each of ffiaid shafts and means for adjusting said lever, a gauge device carried by each lever and spaced from the milling cutter thereon for centering the cutter with respect to the cyc opening, and means for simultaneously operating said shafts with the cutters in contact with 'the inner side of the head wall to form eye member receiving sockets therein.
- a tool of the character described comprising a rotatably mounted plate, shaft carried thereby. a second shaft arranged in a relatively .fixed position with respect to said first named shaft. a milling cutter on each of said shafts, means for rotating said plate to adjust the position of the first named shaft with respect to the second named shaft and vary the distance between the milling cutters in accordance with the distance between the centers of eye openings in the wall of a doll head, and means for simultaneously rotating said slr-.fts with the milling cutters in contact with the doll head wall to form eye member receiving sockets in said wall.
- tool of the character described comprising a rotatably mounted plate, a shaft carried by said plate, a second relatively fixed shaft, a milling cutter on each of said shafts, means yieldingly acting to rotate said plate in one direction, adjustable stop means for limiting such movement of the plate to thereby space the milling cutters with respect to each other in accordance with the distance between the spaced eye openings in the wall of a doll head, and means for simultaneously operating said shafts with the milling cutters in contact with the doll head wall to form c ve member receiving sockets therein.
- a tool of the character described comprising a rotatably mounted plate, a shaft ca rried by said plate, a second relatively fixed shaft. a milling cutter on each of said shafts, means yieldingly acting to rotate said plate in one direction, adjustable stop lmeans for limiting such movement of the plate to therelilspace the milling cutters with respect to ch other in accordance with the distance t weon the spaced eye openings in the wall 'loll head, an adjustable gauge device asc l with each of the milling ⁇ cutters for ationing said cutters with relation to the centers of the respective eye openings, and means for simultaneously operating said shafts with the millin cutters in contact with tie doll head wall to form eye member receivsockets therein.
- a tool of the character described comI prising a. pair of milling cutters, means for supporting said milling cutters through the neck of a completely formed doll head, means for centering the milling cutters with respect to spaced eye openings in said wall and in contact with the inner side of the vhead wall,
- said means including relatively adjustable gauge devices associated with the respective milling cutters and a stop with which a part of the head wall is adapted to be engaged to locate the eye openings with respect to the milling cutters, and means for simultaneously operating said milling cutters.
- a pair of shafts, milling cutters mounted at one end thereof and therewith movable, said shafts with cutters being adapted for insertion through the neck of a completely formed doll head, means normally acting to hold said shafts with cutters in spaced apart relation but permitting of the movement of one shaft with its cutt r towards the other shaft with its cutter whereby the same may be inserted through a neck opening of relatively small size, said shafts adapted to be positioned to bring their cutters in operative contact with the doll head wall in opposed relation.
- a gauge device associated with each of the shafts, said gauge devices having a constant definite relation to the shafts and adapted to be centered with relation to the respective eye openings cX- teriorly of the doll head wall, and means for simultaneously operating said shafts to form eye member receiving sockets in said wall.
- a pair of pivotally supported gauge devices and means engaging4 said gauge devices whereby to space them in centered relation to the spaced eye openings in a doll head wall at the outer side of said wall to thereby determine the operative location of a milling cutter in contact with the inner side of the head wall to form an eye member receiving socket therein accurately centered with respect to an eye opening.
- a shaft with a milling cutter adapted for insertion through the neck of a completely formed doll head.ra pair of pivotally supported gauge devices adapted to be positioned exteriorly of the doll head wall, and means engaging said gauge devices for adjustably spacing them on their pivots in accordance with the distance between the centers of spaced eye openings in said wall whereby said shaft may be positioned to bring its milling cutter in operative contact with the inner side of the head wall to form an eye member receivingsocket therein in accuratecentered relation to one of the eye openings.
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Description
Segpt. 9,1930. l L.-J. GRUBMAN 1,775,393
IIfOOL FOR IILLING EYE SOGKETS IN DOLL READS AFiled May 2s. 192e s sheets-sheet 1 Bz? HM /MA ATroRNEY .Sept- 9, 1930. L J. GRUBMAN 1.775,-33
TOOL FR MILLING EYE SOCKETS IN DOLL Filed May 2:5. 192s Sepft.' 9, 1.930. l., J. GRUBMAN 1,775,393 4 TOOL FOR IILL-ING EYE SOCKETS IN DOLL HEIAUDS Filed May 23, 1925 5 Sheets-Sheet 3 INVENTOR .5601 rzlmam BK Ow /m ATroRNEY Patented Sept. 9, 1930 vPa'lfila'r OFFICE- LEo .L Gmini/mn, on BELLE HARBOR, new roma TOOL FOR `MILLING SOCKETS IN '.DOLL HEADS Application inea May es,
This invention relates to an improved tool for millingV eyesockets in doll heads, and has for its primary object to provide a relatively simple tool whereby this operation maybe expeditiously and accurately performed. o
Heretofore, the milling or reaming of eye receiving sockets in the wall of thedoll head was done before the doll head was fully completed.` Thehead isusually molded in front and rear sections, andbefore these sections are' permanently joined, the spaced eye' openings are formed through the wall of the front section and the inner face of said wall at each of theopenings therein, then reamed or milled out to form a concavev seat or socket. These sockets are separately formed, and it is an exceedingly diiicult matter to exactly center the eye receiving socket with the'cen- 20 ter of the opening through which the eye member to be subsequently mounted in said socket is visible. This results in amore or less imperfect simulation o f the movement of the humaneye in the completed doll.
It is the primary object and purpose of my present invention to provide a milling tool whereby the walls of these Aeye receiving sockets may be 'centered with absolute accuracy with respect to the` openings in the head wall and said sockets simultaneously formed after the doll head has been fully completed inso far as its structure is concerned. More particularly, l provide a tool wherein spacedmilling cutters are mounted and arranged for insertion through the neck of the completed doll head into centered relation with the respective Veye openings, and said cutters then simultaneously operated to mill out or cut the wall of the dollhead contiguous to the edges ofthe openings to precisely the same extent, thus insuring uniformity in `curvature of the walls of the two eye receiving sockets and thereby making it possible to locate orposition the two eye members in precisely the same relation to the socket walls.
Further important objects of my present improvements `reside in the provisionl of `simple and easily operable means for adjusting one of the milling cutters with re- 1925. Serial No. 32,301.
spectto the other; the provision of a gauge i .device associated with each of the milling cutters whereby the cutters may be accurately centered with relation to the eye opening,v and a simple and compact` arrangement of the several parts of the tool with theoperating means therefor.
VVith'vthe above `and other objects in view the invention consists in the improved tool for milling eye sockets in dollheads, and in the form, construction and relative arrangement of the several parts thereof as will be hereinafter more fully described, illustrated" in the accompanying drawings, and subse` quently incorporatedin thesubjoined claims.
In the drawings, wherein I have `illustrated one simple andpractical embodiment of the invention, and in `which similar reference charactersy designate corresponding parts throughout the several vieWs,- 70
Figure `1 is a front elevation partly-in sec* tion showing av preferred embodiment ofmy present improvements;
` F'g. 2 is a sideV elevation of the tool;
Fig. 3 isa detail sectional view taken on the '75 line 3 3 of Fig. 2, and Y Fig. 4 is horizontal section taken on the line 1-11 of Fig. 1.' i
Referring in detail to the drawings, for
purposes of illustration, I have shown the'SO several operative parts of the tool mounted upon a suitable supporting standard 5 rising from a base 6 which may be bolted or otherwise `suitably anchored upon a bed, bench or other foundation. i
Upon one side of the supporting standard 5 a disc or plate 7 is rotatably supported upon a stud 8, threaded or otherwise fixed in said standard. The face of the standard is recessed as at'9 to receive a boss 10 onone 90 j side of the plate 7. A suitable laterally pr0- jecting handle 11 is attached to or integrally formed with the, plate 7. L
The rotatably mounted plate 7 is also provided at the upper side thereof with a horizontally'V disposed forwardly projecting arm 12. i ln this arm a vertically positioned shaft 18 is j'ournalled at its lower end, and said lower end of the shaft 13 is connected by a flexible or universal joint 14 withthe upper 10 end of a relatively short shaft 15 which is mounted in a bracket 16 projecting from the face of the standard 5. ltwill be noted that the point of intersection of the axes of the universal oint 14 is located coincident with the axial center of the supporting stud 8 for the plate 7. lt will thus be understood that when the plate 7 is rotated as hereinafter explained, the shaft 13 moves therewith and with relationL to the lower shaft 15.
At one side of the arm 12, a similar arm 17 projects forwardly from the standard and in this arm a second shaft 18 is rotatably held, said shaft being mounted at its lower end in the bearing bracket 16. This lower end of the shaft 18 is operatively7 connected with the shaft by means of the spiral gears 19. The gear on the shaft 18 is engaged with a similar gear 20 on one end of shaft 21 mounted in the standard 5, the other end of this shaft being connected by any suitable means with a motor or other source of power.
It will therefore, be understood that the shaft 18 is driven in one direction while the other shaft 13 is driven through the shaft 15 and the universal joint 14 in a relatively opposite direction.
Upon the plate 7, a diametrically extending U-shaped bracket member 22 is fixed at its ends, said bracket embracing the exible or universal joint 14 and the shaft 18. This bracket is provided with a bifurcated lug 23 in which the lower end of a lever 24 is pivotally mounted. The end of the arm 12 is also bifnrcated .at to receive said lever and the upper end of the lever is curved and has a plate 26 fixed thereto terminating in a laterally projecting linger 27 carrying a small gauge disc 28. A similar lever 29 is also pivotally mounted at its lower end in the arm 17 on the standard 5 and is likewise provided with a gauge device corresponding to that above referred to. Each of these levers is yieldingly held against pivotal movement in one direction by means of a leaf spring` 30 bearing against the lower end of the lever at its free end and having its other end fixed to the arm 12 or 17 as the case may be. Each lever carries an adjusting screw 31, 32 respectively, bearing against the arms 12 and 17 whereby the levers 24 and 29 may be independently adjusted with relation to a transversely positioned stop pin 33 fixed in each of the arms 12 and 17 which limits the inward movement of the lever.
Upon the upper ends of the shafts 13 and 18, the spherical milling cutters 34 are detachably mounted. Thus each of these cutters may be provided with a threaded stem 35 for engagement in a threaded socket in the upper end of each shaft.
A horizontally split lug 36 on the upper end of the standard 5 is provided with a threaded opening to receive the adjustable screw 37 having a reduced. end A38 bearing against one side of the arm 12 on the plate 7. A vertically positioned clamping screw 39 connects the ends of the split lug 3G whereby the same may be tightly clamped upon the screw 37, and the latter thus fixed in its adjusted position.
At the opposite side of the plate 7 the standard 5 is formed with a vertically disposed guide 40 for a plunger 41. As herein shown, this guide means is illustrated in the form of a hollow projection on. the face of the standard in the upper end of which the plunger 41 is movably arranged and yieldingly projected therefrom by the coil spring 42, the lower end of which is engaged with an adjustable plug 43 threaded in the base 5. The upper end of the plunger 41 is rounded or convex and bears against the lower edge of the handle lever 11 projecting from the plate 7. It will therefore, be understood that the spring 42 and plunger 41 act to rotate the plate 7 in one direction and yieldingly hold the arm 12 thereof in'bearing` engagement against the end 38 of the adjustable stop screw 37. The position of this adjustable stop on the standard with respect to a vertical plane passing through the axis of the plate 7. thus determines the distance between the axial centers of the milling cutters 34 on the upper ends of the shafts 13 and 18. T.Vhen it is desired to change this spacing of the milling cutters, the clamping screw 39 is released and the stop 37 adjusted in the lug 36, thus moving the shaft 13 and the milling cutter thereon with respect to the relatively stationary shaft 18 and the milling cutter on the upper end thereof.
For the purpose of accurately spacing the milling cutters in accordance with the distance between the centers of the eye openings in the wall of the doll head to be operated upon, I provide degree scale upon the face of the standard 5 as shown at 44 and an index pointer or projection 45 on the edge of the rotatable plate 7.
Having now described the several. structural features of the milling tool, its operation may be explained as follows.
After first ascertaining the distance between the centers of the spaced eye openings in the doll head wall and adjusting the milling cutters 34 accordingly in the manner above explained, the screws 31 are operated to adjust the gauge discs 28 with relation to the respective milling critters and in accordance with the thickness of the doll head wall. The completely formed doll head indicated at H is then arranged in position, the two shafts 13 and 18 passing upwardly through the neck of the doll head. The operator then adjusts the position of the doll head with the inner surface of its front wall in contact with the spherical milling cutters nntil the gauge discs 28 are accurately centered i t 1o with relation to the respective eye openings in said wall. i Y
For the purpose ofassisting the operator in centering the milling cutters with re- 1 spect tothe eyeopenings and to retain the doll'head in its adjusted position against casual movement, I provide an adjustable stop or rest. As herein `shown a bracket 46projects laterally from the upper end .of the standard at the rear side thereof and is provided witha vertically extending opening 47, the wall `of which has a left hand thread to receive the exterior left hand threads of an adjustable bushing 48. This bushing also has an internalright hand thread indicated at 49 to receive the lower correspondingly threaded portion vof a vertically disposed rod or post-50. This threaded section ofthe post is provided with a longitudinally extending key way 51 to receive a pin or key 52 fixedV in the bracket arm 46 and projecting into the upper end of the opening 47. AboveV the bracket arm a-lock nut 53 is threaded on the` post 50. i Y Y Y The upper end of the post is slotted or bifurcated as at 54anda stop rod or rest 55 is iiivotally mounted therein upon, the pin 56." Atthe lower end of the bifurcation 54 the post 50 is provided with obliquely inclined surfaces 57 and`58 respectively. The surface 57 supports the lstop 55 in its operative position while the surface 58`limits the pivotal movement of said stop to an inoperative posi- As shown in Fig; ofthe drawings, the stop may be readily adjusted with respect to the gauge discs 28 by turning the bushing 48 whereby the post 50 is caused to move vertically therethrough. The post is then securely locked in such adjusted position by means of the nut 553 which is threaded downwardly upon the post into engagement `with the `bracket 46. As shown in Fig. 2 of the drawings, the neck wall of the doll head H n at its rear side is adapted to'bear against `the end of the stop 55, said stop being properlyV adjusted afterfthe adjustment, of the gauge device 27 to `accurately center'the same with relation to the eye opening in the head wall and with respect to the 'milling cutter' transmitted through the gearing 19 and 20 to the shafts 13 and 18, the milling cutters operating upon the inner side of thehead wall to form the concave seats or sockets therein as indicated at S which `receive the respective eye. members of the oscillatorymounting to be subsequently `positioned within said head. Thus, itwill bevseen that the two eye the provisionof the gauge devices 28 operating in conjunction with theV stop 55, the eye openingsin the doll head wall may be accurately located `radially with respect to the' milling cutters so that an even and uniform cutting actionuponthe wall of the doll head is 'assured and the socket walls thus produced will bear the same relation to the edge o-f each eyeA opening at the outer surface of the head wall. Accordingly, when the 0scillatory eye mounting is arranged within" said head,T the pupils ofthe respective eye members `will bear the same relation-to the receiving sockets are .simultaneously `milled orreained out in the doll head wall, and by edges of the eye openings and in the oscillatory movement of said eye members will realistically simulate the openinga-nd clos-V ingl movements of the human. eye.
From the above description considered zin connection with the accompanying drawings,V
it will be seen that I `have devised a tool of relatively simple construction whereby the eve member receiving sockets may be expe- ,ditioushT and accurately milled or `reamed in the wall of the doll head,- after the head has` been completelyformed and closed with the eceptionof the opening through theneck. Accordingly, the quantity production of such dolls may be materially increased by the use of mv improved tool and with greater econo` my since waste dueto the faulty` or inaccurate reaming or milling of the eye sockets willube eliminated. `It follows from"the fact that" bythe use of my new tool, exactlyy the same curvature of the socket walls and their relation to the eye openings is attained in all of the doll heads, Vthatthe eye mounting is interchangeable and may beV removed from one head and placed in another with the assurance of a correctrelationship between the respective eye members Vand the walls of the eye sockets. Y i
I have herein disclosed apractical embodiment of my present improvements which I IOt have'founjd to be very ei'iicient inits opera- 1- tion. Nevertheless, it is to be understood that the essential features of the device might also be incorporated in variousother alternative mechanical` constructions, and I therefore reserve the privilegeof adopting all such legitimate changes in the form, proportion and relative arrangement of the several parts may lie-fairly embodied within the spirit and scope of the invention .as claimed. Tclalm: Y
1. A tool-of the character described comprising a pair of shafts adapted to be engaged through the neck of a completely formed doll head, a milling cutter on each shaft, means for adjusting one of said shafts with respect to the other to space the milling cutters in accordance with the distance between the centers of spaced eye openings in the doll head wall, an adjustable lever associated with each of ffiaid shafts and means for adjusting said lever, a gauge device carried by each lever and spaced from the milling cutter thereon for centering the cutter with respect to the cyc opening, and means for simultaneously operating said shafts with the cutters in contact with 'the inner side of the head wall to form eye member receiving sockets therein.
2. A tool of the character described comprising a rotatably mounted plate, shaft carried thereby. a second shaft arranged in a relatively .fixed position with respect to said first named shaft. a milling cutter on each of said shafts, means for rotating said plate to adjust the position of the first named shaft with respect to the second named shaft and vary the distance between the milling cutters in accordance with the distance between the centers of eye openings in the wall of a doll head, and means for simultaneously rotating said slr-.fts with the milling cutters in contact with the doll head wall to form eye member receiving sockets in said wall.
3. tool of the character described comprising a rotatably mounted plate, a shaft carried by said plate, a second relatively fixed shaft, a milling cutter on each of said shafts, means yieldingly acting to rotate said plate in one direction, adjustable stop means for limiting such movement of the plate to thereby space the milling cutters with respect to each other in accordance with the distance between the spaced eye openings in the wall of a doll head, and means for simultaneously operating said shafts with the milling cutters in contact with the doll head wall to form c ve member receiving sockets therein.
4f. A tool of the character described comprising a rotatably mounted plate, a shaft ca rried by said plate, a second relatively fixed shaft. a milling cutter on each of said shafts, means yieldingly acting to rotate said plate in one direction, adjustable stop lmeans for limiting such movement of the plate to therelilspace the milling cutters with respect to ch other in accordance with the distance t weon the spaced eye openings in the wall 'loll head, an adjustable gauge device asc l with each of the milling` cutters for ationing said cutters with relation to the centers of the respective eye openings, and means for simultaneously operating said shafts with the millin cutters in contact with tie doll head wall to form eye member receivsockets therein.
o. A tool of the character described comI prising a. pair of milling cutters, means for supporting said milling cutters through the neck of a completely formed doll head, means for centering the milling cutters with respect to spaced eye openings in said wall and in contact with the inner side of the vhead wall,
said means including relatively adjustable gauge devices associated with the respective milling cutters and a stop with which a part of the head wall is adapted to be engaged to locate the eye openings with respect to the milling cutters, and means for simultaneously operating said milling cutters.
6.V In a tool of the character described, a pair of shafts, milling cutters mounted at one end thereof and therewith movable, said shafts with cutters being adapted for insertion through the neck of a completely formed doll head, means normally acting to hold said shafts with cutters in spaced apart relation but permitting of the movement of one shaft with its cutt r towards the other shaft with its cutter whereby the same may be inserted through a neck opening of relatively small size, said shafts adapted to be positioned to bring their cutters in operative contact with the doll head wall in opposed relation. to spaced eye openings therein, a gauge device associated with each of the shafts, said gauge devices having a constant definite relation to the shafts and adapted to be centered with relation to the respective eye openings cX- teriorly of the doll head wall, and means for simultaneously operating said shafts to form eye member receiving sockets in said wall.
7. In a tool of the character described, a pair of pivotally supported gauge devices, and means engaging4 said gauge devices whereby to space them in centered relation to the spaced eye openings in a doll head wall at the outer side of said wall to thereby determine the operative location of a milling cutter in contact with the inner side of the head wall to form an eye member receiving socket therein accurately centered with respect to an eye opening.
8. In a tool of the character described, a shaft with a milling cutter adapted for insertion through the neck of a completely formed doll head.ra pair of pivotally supported gauge devices adapted to be positioned exteriorly of the doll head wall, and means engaging said gauge devices for adjustably spacing them on their pivots in accordance with the distance between the centers of spaced eye openings in said wall whereby said shaft may be positioned to bring its milling cutter in operative contact with the inner side of the head wall to form an eye member receivingsocket therein in accuratecentered relation to one of the eye openings.
In testimony that I claim the foregoing as my invention, l have signed my name hereto.
LEO J. GRUBMAN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US32301A US1775393A (en) | 1925-05-23 | 1925-05-23 | Tool for milling eye sockets in doll heads |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US32301A US1775393A (en) | 1925-05-23 | 1925-05-23 | Tool for milling eye sockets in doll heads |
Publications (1)
Publication Number | Publication Date |
---|---|
US1775393A true US1775393A (en) | 1930-09-09 |
Family
ID=21864189
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US32301A Expired - Lifetime US1775393A (en) | 1925-05-23 | 1925-05-23 | Tool for milling eye sockets in doll heads |
Country Status (1)
Country | Link |
---|---|
US (1) | US1775393A (en) |
-
1925
- 1925-05-23 US US32301A patent/US1775393A/en not_active Expired - Lifetime
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